Articles with public access mandates - Manoj Kumar TripathiLearn more
Not available anywhere: 3
Distinct coalescence behaviors of hot and cold drops in the presence of a surrounding viscous liquid
AH Saifi, MK Tripathi
Physics of Fluids 32 (8), 2020
Mandates: Department of Science & Technology, India
Thermocapillary convection in liquid-in-liquid capillary bridges due to a heating/cooling ring
AH Saifi, VM Mundhada, MK Tripathi
Physics of Fluids 34 (3), 2022
Mandates: Department of Science & Technology, India
Heat transfer to a liquid bridge from a surrounding liquid via a heating/cooling ring
AH Saifi, MK Tripathi
International Journal of Heat and Mass Transfer 200, 123498, 2023
Mandates: Department of Science & Technology, India
Available somewhere: 13
Shapes and paths of an air bubble rising in quiescent liquids
DM Sharaf, AR Premlata, MK Tripathi, B Karri, KC Sahu
Physics of Fluids 29 (12), 2017
Mandates: Department of Science & Technology, India
Why a falling drop does not in general behave like a rising bubble
MK Tripathi, KC Sahu, R Govindarajan
Scientific reports 4 (1), 4771, 2014
Mandates: Department of Science & Technology, India
Non-isothermal bubble rise: non-monotonic dependence of surface tension on temperature
MK Tripathi, KC Sahu, G Karapetsas, K Sefiane, OK Matar
Journal of Fluid Mechanics 763, 82-108, 2015
Mandates: UK Engineering and Physical Sciences Research Council
Shape oscillations of a nonspherical water droplet
M Balla, M Kumar Tripathi, KC Sahu
Physical Review E 99 (2), 023107, 2019
Mandates: Department of Science & Technology, India
A numerical study of a hollow water droplet falling in air
M Balla, MK Tripathi, KC Sahu
Theoretical and Computational Fluid Dynamics 34, 133-144, 2020
Mandates: Department of Science & Technology, India
The dynamics of rising oil-coated bubbles: experiments and simulations
S Wang, Y Zhang, JC Meredith, SH Behrens, MK Tripathi, KC Sahu
Soft matter 14 (14), 2724-2734, 2018
Mandates: US National Science Foundation
Non-isothermal bubble rise dynamics in a self-rewetting fluid: three-dimensional effects
M Balla, MK Tripathi, KC Sahu, G Karapetsas, OK Matar
Journal of Fluid Mechanics 858, 689-713, 2019
Mandates: Department of Science & Technology, India
Motion of an air bubble under the action of thermocapillary and buoyancy forces
MK Tripathi, KC Sahu
Computers & Fluids 177, 58-68, 2018
Mandates: Department of Science & Technology, India
Migration of a viscoelastic drop in a ratchet microchannel
AK Nema, MK Tripathi, KC Sahu
Journal of Non-Newtonian Fluid Mechanics 307, 104870, 2022
Mandates: Department of Science & Technology, India
Effect of viscosity and density ratios on two drops rising side by side
M Balla, S Kavuri, MK Tripathi, KC Sahu, R Govindarajan
Physical Review Fluids 5 (1), 013601, 2020
Mandates: Department of Science & Technology, India
Simulations of a weakly conducting droplet under the influence of an alternating electric field
KC Sahu, MK Tripathi, J Chaudhari, S Chakraborty
Electrophoresis 41 (23), 1953-1960, 2020
Mandates: Department of Science & Technology, India
Interaction of two non-coalescing bubbles rising in a non-isothermal self-rewetting fluid
M Balla, MK Tripathi, OK Matar, KC Sahu
European Journal of Mechanics-B/Fluids 87, 103-112, 2021
Mandates: Department of Science & Technology, India
Bubble ascent and rupture in mud volcanoes
ML Rudolph, KC Sahu, N Savva, A Szilágyi, Z Hórvölgyi, P Márton, Á Tajti, ...
Royal Society Open Science 11 (7), 231555, 2024
Mandates: European Commission
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